MORFI NEO - PULP & FIBER MORPHOLOGY ANALYZER
MORFI NEO is the industry-leading analyzer for fiber and fines morphology, developed by Techpap for laboratories and R&D centers in the pulp, paper, and fibrous materials sectors.
It delivers high-precision measurement, automated operation, and powerful data visualization — all in a compact, upgradeable design.
Applications
- Research & Development – Micro- and nanofibrillated cellulose, alternative and non-cellulosic fibers.
- Quality Control – Raw material and pulp characterization.
- Process Optimization – Refiner energy and fiber development monitoring.
- Cross-industry use – Packaging, molded pulp, fiber-cement, tobacco.
Key Features & Highlights
- Automatic dilution and cleaning – ensures consistent sample preparation, improved repeatability, and easier operator workflow.
- Fast analysis – about 3 minutes for fibers & fines, 3 minutes for shives & vessels.
- Ergonomic design – 6-beaker carousel and intuitive interface for continuous workflow.
- Modular & upgradeable – optional AI module for vessel detection, hardwood/softwood solver, and PCA graphing for process control.
- True optical precision, with an optional High-Resolution (HR) camera module enabling direct measurement of fiber wall thickness and detailed image analysis.
- Rugged and compact – low maintenance and small lab footprint.
Data & Results
- Fibers: length, width, coarseness, curl, kink, fibrillation index, broken ends.
- Fines: average length, primary/secondary ratio, area and length content.
- Shives & Vessels: dimensions, distributions, total area per gram.
- Advanced analytics: PCA and statistical tools for process stability.
- Data export: instant recalculation, adaptable views, PDF & Excel® reports, OPC/DCS connectivity.
Technical Specifications
- Bench area: 180 × 90 cm
- Power supply: 90–240 V AC, 50–60 Hz, 30 W
- Water supply: filtered & tempered (max 2 bar)
- Operating system: Windows®
In Summary
MORFI NEO combines high-resolution optical analysis (optional HR module) with automatic dilution and cleaning, offering unmatched measurement accuracy, repeatability, and ease of use.
It provides a common analytical language between R&D, quality control, and process teams — empowering better understanding and optimization of fibrous materials.
